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Abstract

The shoulder is susceptible to disturbances caused by microtraumas due to direct contact of the surrounding skeletal structures or failure of the soft parts of the rotator cuff and other muscles inserted into the glenohumeral joint. The purpose of the study was to compare the electromyographic signal in the stabilizing muscles of the shoulder during the diagonal elevation exercise as recommended by the proprioceptive neuromuscular facilitation (PNF) method and dumbbell exercise. This study is classified as Quase-experiment. Subjects were instructed to perform diagonal standard exercises and the electromyographic signal was detected from pectoralis muscles, middle and upper trapezius of dominant limb in each subject. We observed greater muscular recruitment when the PNF method was adopted in comparison with the dumbbell workouts for the trapezius upper and middle fiber muscles and for the major pectoralis (267,30 μv/181,02 μv; 235,76 μv/;164,47 μv; 299,87 μv/148,69 μv; P<0.001). The PNF method promotes a greater recruitment of the shoulder dynamic stabilizing muscles during diagonal elevation exercises. Being so, such kinesiotherapeutic technique may be effectively used in the prevention, treatment and rehabilitation of shoulder disorders.

INTRODUCTION

An imbalance in movement, overload and impact makes shoulder joints susceptible to disorders caused by micro traumas due to direct contact of surrounding bone structures or failure of soft parts of the rotator cuff and other muscles inserted into the glenohumeral joint (Alizadehkhaiyat et al., 2015; Rega et al., 2012; Soares, 2003).

The shoulder is therefore affected by several disorders whose features may be caused either by intrinsic factors such as diseases of periarticular structures (ligaments, tendons, and synovial pouches) or by extrinsic factors, usually related to age and activities performed by the individuals, common disorders in all populations (Ferreira et al., 2015). Thus, shoulder rehabilitation focuses on two important aspects: flexibility and strength. Several physiotherapeutic methods have been used for the rehabilitation and strengthening of the upper limbs. Among the most popular methods we call attention to elastic resistance and dumbbell workouts during shoulder exercises given their practicality and versatility. Dumbbell workouts during shoulder exercises is strongly recommended as parts of shoulder rehabilitation programs despite the limited evidence available to guide physiotherapists in deciding the type of resistance or the ideal exercise (Ferreira et al., 2017). In line with some previous conducts, proprioceptive neuromuscular facilitation (PNF) represents an additional method to promote shoulder rehabilitation by means of maximum biomechanical stretching and therefore, increased functional movements by muscular and proprioceptive stimulation (Witt et al., 2011).

The PNF is equivalent to diagonal exercises whose main purpose is to increase functional movement by muscular facilitation, inhibition, strengthening and relaxation. Such exercises aim to increase range of motion and response to physical effort (Abreu et al., 2015; Tucker and Slone, 2016).

On the other hand, diagonal exercises are commonly used to recruit muscles of the shoulder girdle to which dumbbell workouts and elastic resistance exercises can be adopted and practised. Therefore, studying the diagonal exercises methods becomes crucial as researchers may get theoretical support and decide on a more effective therapeutic choice for muscle strengthening (Lister et al., 2007).

However, defining the most appropriate therapeutical approach can be a challenging task. In this sense, the surface electromyography (SEMG) is a tool used in kinesiotherapeutic protocols both in healthy individuals and in those suffering from disorders. The SEMG technique consists of capturing the electric signal produced in the arrangement of muscles by stimulating motor units of the human body in order to enable the definition and investigation of the muscles that are being used in a certain movement (Andersen et al., 2010; Gaffney et al., 2016).

Thus, we propose a comparative study between the energy expenditure and the muscular recruitment of shoulder stabilizers during the diagonal elevation exercise as recommended by the PNF and conventional dumbbell exercises.

MATERIALS AND METHODS

Study design

This study is classified as Quasi-experiment, performed at Clínica Escola de Fisioterapia da Faculdade Cenecista de Santo Ângelo, together with a study group focused on Complementary and Physical Exercises at Hospital de Clínicas located in Porto Alegre (HCPA), both located in Brazil.

Participants

The study was approved by the HCPA Research Ethics Committee and is registered under the number CAAE 58887916.9. 3001.5571.

Healthy male and female individuals were included in the study aged between 18 and 35 who performed physical exercises regularly – 3 times a week.

Individuals carrying neurodegenerative diseases, psychic illnesses and cognitive delays that prevented them from understanding the proposed therapy were excluded. Individuals under muscular hypertrophy training with partial upper limb amputation were also excluded from the study.

Tests

All participants were received at the physiotherapy school clinic where they signed the written informed consent form and provided personal identification information. Evaluation started by taking notes of blood pressure followed by height and weight checking. The subjective Borg scale (Silva et al., 2011) was used to determine the intensity of exercises practised by means of dumbells and of PNF and the recommended intensity was 75% of maximum effort (Fig. 1). Each type of exercise was performed in a 24-hr interval.

The electromyography (EMG) surface for the noninvasive assessment of muscles protocol, by which the electrode is positioned between the distal tendon and the motor point of the evaluated muscle in line with the muscle fibres (Stegeman and Hermens, 2017).

Participants were placed in supine position during the test with both upper limbs placed next to the body. The head was placed in neutral position with semisoft knees on a steady support. The skin was properly sanitized with alcohol soaked cotton to reduce impedance.

The electromyographic signal was captured through surface electrodes placed in the muscle belly of the pectoralis, upper and middle trapezius muscles of dominant limb in each individual (Da Paula Rodrigues et al., 2016).

After the positioning of the electrodes, participants were clearly instructed on how to behave and perform the exercises. Once the participants were familiar with the instructions, three free repetitions were observed and registered to facilitate a clearer understanding of the exercise sequence before the final performance with the capture of the gross signal from the belly muscular muscle.

During the PNF technique, the movement was directed by the therapist as a passive demonstration and therefore, promoting a better understanding of the expected activity. Each move was performed after an adequate verbal command was given including instructions on performance and correction. The diagonal 2 (D2) exercise was performed to stimulate the flexor standard muscle. For the PNF technique, the moves were guided by the therapist as passive demonstration for a better understanding. A diagonal 2 (D2) was also performed to stimulate the flexor movement, a performance that depends on finger, wrist and elbow extension, prone forearm, external rotation and abduction. At the same time, the extensor movement was performed including finger flexion, wrist, supination, elbow extension, internal rotation, shoulder flexion and adduction.

For the dumbell technique, participants were positioned in the same way as for the PNF technique and the diagonal move was performed again. The maximum repetition test was useful to determine 75% (one-repetition maximum) as maximum weight for this type of exercise (Barbosa et al., 2008).

After finishing each type of exercise completely, blood samples were then collected from participants (cortisol and lactate) in order to check energy expenditure.

Processing and analysis of the collected blood sample

Blood samplings were collected by a qualified professional immediately after the execution of each category of exercise. The approximate volume of 10 mL was taken from each participant by means of venous puncture after a 2-hr fasting period. The total blood volume was separated into lactate serum and fluorinated plasma cortisol.

The serum for the cortisol analysis was obtained in sample standard tubes, thirty minutes after the collection by means of centrifugation for 15 min 3,000 RPM. After being centrifugated, samples were distributed in micro tubes containing 1,000 μL and were immediately frozen.

The plasm fluoretate-Na/K-oxalate sample used in the analysis of the lactic acid was also collected and centrifugated (15 min/ 3,000 RPM). After the centrifugation, the samples were then distributed in micro tubes containing 1,000 μL and were immediately frozen. The material was properly stored for posterior clinical analyses. The transportation of the samples followed all legal procedures.

Statistical analyses

Data processing and analyses were performed by using the IBM SPSS Statistics ver. 20.0 (IBM Co., Armonk, NY, USA) and results were considered significant when P<0.05.

The variables were presented through medians and standard deviation. Basal data were normalized by peaks, referring to RMS, peak and median frequency through Student t-test considering the two-tailed distribution with equal variance in the two samples. The significance level considered was 5%, two-tailed.

RESULTS

A higher prevalence of female participants (71%) was observed being all adults aged 22±2.5 years. The average body mass index was 22.28±3.99 kg/m2, being considered healthy and normotensive according to blood pressure values.

Table 2 shows the muscular recruitment scores obtained during the performance of the exercises using dumbells and PNF.

All tested muscles presented a higher recruitment when the PNF method was adopted P<0.05. The average observed difference was 86,28 μv for the pectoralis muscle, for the upper trapezius muscle 71.28 μv and for the middle trapezius muscle 151.17 μv during the PNF exercise.

Table 3 shows the scores for lactic acid and cortisol immediately after the performance of each exercise.

There was no significant difference in the cortisol levels for the different categories of exercises, P>0.05. However, the lactic acid levels were higher for the PNF exercise when compared to the exercise with dumbell as the difference was 1.30.

Table 4 shows the scores associated with concentric and eccentric contraction time in the pectoralis and upper trapezius during exercises with dumbells and PNF.

DISCUSSION

Male individuals are usually more physically active than female individuals, a relation that seems to contradict our findings as previously shown in Table 1. Regarding muscle fibers, they vary according to the genetics and daily life activities (Guedes and Grondin, 2002; Salvador et al., 2005). There is a higher percentage of fibers type I in females, which are capable of faster recovery and resistant to weariness, easily stretched, and with higher concentrations of estrogen, whilst in males higher amounts of fiber type II are presented, which are characterised by fast contraction, white, and with higher amounts of testosterone (Carneiro et al., 2002; Minamoto, 2004; Ramires et al., 2014).

Among the muscles that stabilize the shoulder, there are the trapeze and the pectoral. Connecting the superior member to the thorax, the pectoral muscle has the function of perform adduction, flexion, and horizontal flexion of the shoulder (Phadke et al., 2009). On the other hand, the trapeze shoulder, a superficial muscle that connects the superior member to the backbone, is easily recruited in a lot of movements that involve head and shoulders. Therefore, when the muscles of the more profound layer are not strong enough, the trapeze is the most sought, which favors the accumulation of straining (Stapait et al., 2013).

As a consequence of that, the PNF has been used as therapy in order to improve athlete’s physical performance, either being sedentary, healthy or dysfunctional. This modality is based on the usage of movements and postures as a therapeutic purpose, which are based in the patterns of facilitation, stretch stimulus, traction-approach, stretch reflexion, manual contacts, verbal command, visual stimulus, resistance, irradiation, reinforcement, and synchronization of movements (Lister et al., 2007; Sullivan and Portney, 1980; Youdas et al., 2012).

Owing to the importance of the training of stabilizer muscle shoulders in the treatment and prevention of injuries, a range of studies with EMG have reported strategies of scapular muscles activation during the exercises. Therefore, this study acknowledges through Table 2, the hypothesis that there is difference in the recruitment of muscle fibers to the execution of different techniques of diagonal elevation exercises. We performed the diagonal D2, in which there was resistance until the individual’s effort reached 75% of maximum strength. The entire exercise was performed with constant stimulus made by spoken words and appropriate voice intonation in order to orientate the activity, similar to the manual format in which the strength and movement were guided with touch and pressure (Lister et al., 2007).

According to what was described in the Youdas et al. (2012) study, which compared the muscle activation of eight muscles of the shoulder and body during an activity with halter during the two diagonals in the scapular surface, the D1 flexion (shoulder’s flexion, adduction, and external rotation) and D2 flexion (shoulder’s flexion, abduction, and external rotation), the authors found that the trapeze muscle of medium fiber had a greater activation in D2 than in D1. This data was also found in our study, in which was realized a greater muscle recruitment compared to the other fibers.

Among the metabolic and endocrine adaptations observed during the performance of a resisted physical effort, the cortisol hormone is highlighted (Rosa et al., 2010). The hormonal response to the exercise depends on various factors, including intensity, duration, manner and level of training (Bueno and Gouvêa, 2012). However, the levels of cortisol presented were not statistically significant, as shown in the Table 3, what we can consider is the age factor and the fact that a specific time of the day was not standardized for the collect of data.

The Table 4 shows data from the combined contraction of the muscles that perform concentric and eccentric force and the PNF exercise demonstrated a higher consistency of muscular contraction compared to the exercise with dumbells.

Regarding the musculature, the agonists and antagonists muscles act in opposite directions, reacting to voluntary or involuntary stimulus in an eccentric and concentric way of contraction, acting directly as a dynamic joint stabilization (Paz et al., 2013).

Da Fonseca et al. (2007) describes that when the agonist muscle reaches final amplitude of contraction, it begins to cause proprioceptive stimulation of the antagonist muscle, resulting in resistance to the final phase of the agonist movement, then occurring the so called cocontraction. Such event acts in the stability with anticipatory adjustments and reactives evidenced by myoelectric activity of the muscles that intersect a specific joint. Thenceforth, considering the concentration of lactic acid, it presents a lower amount in the eccentric work if compared to the concentric, for it presents lower metabolic demand (Oliveira et al., 2006).

In the Table 2, there is a greater muscle recruitment in the modality of PNF exercise, which also promotes a greater time of simultaneous contraction between the agonists and antagonists. According to this, Youdas et al. (2012) points out that the PNF technique is based on applying diagonal movements, the most functional as possible, in which is possible to achieve a cocontraction of agonists and antagonists muscles through the rhythmic stabilization. In our study, a simultaneous contraction of the major pectoral and superior trapeze muscles occurred, demonstrating that PNF not only reinforces the proprioception, but also offers a constant stimulus that improves the muscle performance of the scapular waist.

Therefore, the cocontraction contributes significantly to the dynamic stability of the shoulder improving the joint stabilization through the increase of muscle strength, flexibility and gain in the movement and amplitude, since this joint presents a lot of degrees of freedom and is likely to injuries and instabilities (Garzedin et al., 2008).

Notes

CONFLICT OF INTEREST

No potential conflict of interest relevant to this article was reported.